基于凹槽结构的导管螺旋桨梢部流动研究

Zhi Hui Jin; Peng Wang; Hua Chao Dong; Zhi Wen Wen; Yong Le Ding

doi:10.3969/j.issn.1007-7294.2024.06.006

基于凹槽结构的导管螺旋桨梢部流动研究

Zhi Hui Jin, Peng Wang, Hua Chao Dong, Zhi Wen Wen, Yong Le Ding

航海学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Inspired by the“casing treatment”in turbomachinery, a rectangular groove structure is applied to the inner surface of ducted propeller to reduce the strength of the tip vorticity and inhibit the cavitation of tip vorticity, which is expected to improve the hydrodynamic and cavitation performance. The unsteady numerical calculation of Ka4-70 propeller operating inside duct 19A, with or without grooves, was carried out by using computational fluid dynamics (CFD) method. The influence of groove structure on tip pressure, tip vortex strength, tip vortex structure and hydrodynamic performance of blades was studied. The results show that the groove structure can significantly change the tip vortex of duct propeller, weaken the strength of vortex, increase the minimum pressure at the tip of blade, and almost have no effect on the propulsion performance. The results provide a new solution for tip vortex control and vibration and noise reduction of the ducted propeller.

投稿的翻译标题	Analysis of tip flow of ducted propeller based on groove structure
源语言	繁体中文
页（从-至）	866-876
页数	11
期刊	Chuan Bo Li Xue/Journal of Ship Mechanics
卷	28
期	6
DOI	https://doi.org/10.3969/j.issn.1007-7294.2024.06.006
出版状态	已出版 - 6月 2024

关键词

casing treatment
cavitation
ducted propeller
groove structure
tip vortex structure

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10.3969/j.issn.1007-7294.2024.06.006

其它文件与链接

链接到 Scopus 的出版物

引用此

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title = "基于凹槽结构的导管螺旋桨梢部流动研究",

abstract = "Inspired by the“casing treatment”in turbomachinery, a rectangular groove structure is applied to the inner surface of ducted propeller to reduce the strength of the tip vorticity and inhibit the cavitation of tip vorticity, which is expected to improve the hydrodynamic and cavitation performance. The unsteady numerical calculation of Ka4-70 propeller operating inside duct 19A, with or without grooves, was carried out by using computational fluid dynamics (CFD) method. The influence of groove structure on tip pressure, tip vortex strength, tip vortex structure and hydrodynamic performance of blades was studied. The results show that the groove structure can significantly change the tip vortex of duct propeller, weaken the strength of vortex, increase the minimum pressure at the tip of blade, and almost have no effect on the propulsion performance. The results provide a new solution for tip vortex control and vibration and noise reduction of the ducted propeller.",

keywords = "casing treatment, cavitation, ducted propeller, groove structure, tip vortex structure",

author = "Jin, {Zhi Hui} and Peng Wang and Dong, {Hua Chao} and Wen, {Zhi Wen} and Ding, {Yong Le}",

year = "2024",

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doi = "10.3969/j.issn.1007-7294.2024.06.006",

language = "繁体中文",

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AU - Jin, Zhi Hui

AU - Wang, Peng

AU - Dong, Hua Chao

AU - Wen, Zhi Wen

AU - Ding, Yong Le

PY - 2024/6

Y1 - 2024/6

N2 - Inspired by the“casing treatment”in turbomachinery, a rectangular groove structure is applied to the inner surface of ducted propeller to reduce the strength of the tip vorticity and inhibit the cavitation of tip vorticity, which is expected to improve the hydrodynamic and cavitation performance. The unsteady numerical calculation of Ka4-70 propeller operating inside duct 19A, with or without grooves, was carried out by using computational fluid dynamics (CFD) method. The influence of groove structure on tip pressure, tip vortex strength, tip vortex structure and hydrodynamic performance of blades was studied. The results show that the groove structure can significantly change the tip vortex of duct propeller, weaken the strength of vortex, increase the minimum pressure at the tip of blade, and almost have no effect on the propulsion performance. The results provide a new solution for tip vortex control and vibration and noise reduction of the ducted propeller.

AB - Inspired by the“casing treatment”in turbomachinery, a rectangular groove structure is applied to the inner surface of ducted propeller to reduce the strength of the tip vorticity and inhibit the cavitation of tip vorticity, which is expected to improve the hydrodynamic and cavitation performance. The unsteady numerical calculation of Ka4-70 propeller operating inside duct 19A, with or without grooves, was carried out by using computational fluid dynamics (CFD) method. The influence of groove structure on tip pressure, tip vortex strength, tip vortex structure and hydrodynamic performance of blades was studied. The results show that the groove structure can significantly change the tip vortex of duct propeller, weaken the strength of vortex, increase the minimum pressure at the tip of blade, and almost have no effect on the propulsion performance. The results provide a new solution for tip vortex control and vibration and noise reduction of the ducted propeller.

KW - casing treatment

KW - cavitation

KW - ducted propeller

KW - groove structure

KW - tip vortex structure

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DO - 10.3969/j.issn.1007-7294.2024.06.006

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JO - Chuan Bo Li Xue/Journal of Ship Mechanics

JF - Chuan Bo Li Xue/Journal of Ship Mechanics

IS - 6

ER -

基于凹槽结构的导管螺旋桨梢部流动研究

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